US2403737A

US2403737A - Mount for optical elements

Info

Publication number: US2403737A
Application number: US461584A
Authority: US
Inventors: Mihalyi Joseph
Original assignee: Eastman Kodak Co
Current assignee: Eastman Kodak Co
Priority date: 1942-10-10
Filing date: 1942-10-10
Publication date: 1946-07-09
Anticipated expiration: 1963-07-09

Description

July 9; 1946. J. MIHALYI 2,403,737

MOUNT FOR OPTIGALYELEMEVNTS Filed Oct. 10, 1942 FIG l.

w 26 Z7 M} JOSEPH MIHALY] INVENTOR WM ATTORNEYS Patented July 9, 1946 NITED STATESFPATENT OFFICE, I a MOUN'I. roaifiitlt l l I 3 Joseph Mihalyi, Rochester, N. Y., assignor toEastman Kodak Company, Rochester,.N. Y., a corporation of New Jersey i I 1 Application October 10, numeral-N6. 461,584

to the proper-position and which may. bemoved in two directions. Still another object of my invention is to provide a readily adjustable mount for a movable mirror or prism of a range finder. Other objects will appear from the following specifications, the novel features being particularly pointed out in the claims at the end thereof.

. In optical instruments it is usually necessary to provide a means for holding the optical ele- 8 Claims. (ones-fem rier for an optical element which is pivoted about ments with extreme accuracy, and where these the instrument in the field. It is well known that:

difierent atmospheric conditions and temperatures may be sufilcient to get optical elements of range finders and the like sufficiently out of adjustment to prevent not only accurate reading but insome instances'to even prevent any readings at all. It is, therefore, necessary to provide some means of bringing the parts back into their proper operative relationship and in the following application I will describe a preferred form of mount for optical elements of a range finder which will fulfill these requirements of' parts at,

easy, yet accurate, adjustment of the any time.

Coming now to the drawing wherein like reference characters denote like parts throughout: Fig. l is a rear elevation of a typical range finder constructed in accordance with and embodying an optical element and 'mcunt constructed in accordance with a-preferred form of my invention; 1 Fig. 2 is an enlarged detail section showing the mount in top plan and taken on line 22.

of Fig.1;

Fig. 3 is'an enlarged fragmentary detail section taken on line 33 of Fig. 2 showing a portion of the optical element adjusting mechanism; and

Fig. 4 is a fragmentary perspective view of the optical element mount removed-from its casing.

My preferred mount comprises broadly a caraxes extending in two directions atone end and which is provided with a pair of adjusting screws at the opposite end, the axes of the adjusting screws being parallel to the pivotal axis of the mount. Thus,in aligning an image, the mount can be moved accurately and minutely if desired in two different directions and the movement in both directions can be controlled with a high degree of accuracy.

Referring to Fig. l, the range finder may comprise a casing I provided with a pair of

supportinghandles

2 and 3 and having a rear sight or opening 4 through'which the imagesof an object being focused upon may be viewed. The casing I may be provided with

end caps

5 and 6. In one end of the range finder-there is an opening 'i through which light raysmay pass to a mirror 8 which is hingedly carried by a frame 9, this frame in turn being hingedly attached at ID to a bracket H pivotally attached at l2 to the casing l. A pivotal connection i3 is formed between the frame 9 and an arm i4 extending through the casing and contacting with a cam, i5 which may ibe'turned by the thumb wheel T adjacent handle 3. i

Thusan image coming through the window 1 may be reflected by the mirror 8 so that this image can be made to overlie a second image coming in through a second window device to determine the point of focus. .As thus far described, the general type of range finder is known.

However, the image which is brought through the window [6, as best shown in Fig. 2, may be refracted by an optical element, such as a mirror I! or a prism, so that light rays may be refiected ,fromthe line L by the mirror I! to a suitableobjective l8 which brings them to focus at the proper plane not shown. By moving the mirror 8 through the focusing knob T two images may be made to ,coincide, since in this instance the mirror 11, is both reflecting and transmitting, so that the light rays reflected by themirror 8- may pass alongthe axis L and through best shown in Figs. 3 and 4 by which the relation of. the mirror I! may be adjusted so that the images passing along the lines L and L maybe registered-to indicate the'focal distance on a suitable scale not shown but-which may be seen through the eyepiece 4.

This mount consists of an arm 20 which, as

also attached to the casing at 21', Thus the spring 26 always tends to move the adjustable endof the arm 29 in the direction row in Fig. 3. I

Opposing this movement is a pair of adjusting screws 28 and 29, these screws having a threaded connection at 3B and 3| with asupportingaplate 32 which may be attached by screws 33. to the casing l. The screws 28 and 29 have knurled or roughened knobs 35' and 36 which can be turned through the relatively

small openings

31 and 38 in the protecting flanges F, so that it will be difiicult if not impossible for either of these two screws to be turned by accident.

The arm is pivoted on the axis A--A by means of pivots 4i] and 41 passing from cars 42 and d3 into

similar cars

44 and 45 carried by a bracket designated broadly as 45.

The frame 39 has a number of mirror carrying elements d! so that the mirror I! may be held in a fixed position with respect to the frame 39 which is out out at 48 to permit light rays to pass through the mirror I! from the mirror 1.

The bracket 49 may be a circular member carrying a lower arm 59 supporting the pivotal pin 4| and carrying an upper arm 5| supporting the pivot 16. Thus the arms 58- and 5| are connected together by the circular bracket 46. Integrally formed with this bracket is a pivot 52 having an axis B-B at right angles to the axis shown by the are A-A. Because of this pivotal mount the arm 2!} may be moved in either one of two directions by adjusting the operating knobs and 35. When the knob 36 is turned by turning the screw having an axis -bb, the arm 20' is turned about the axis BB and when the knob 35 is turned about the axis a-a the arm 23 is turned'about its axis A-A. Thus, since the adjusting

screws

35 and 36 are parallel to the two axes about which the arm 29 may turn, it is only necessary to turn one or both of these screws if for any reason the instrument should get out of adjustment in the field as they frequently do because of temperature changes or other changes in the operating conditions. used in initially setting up the instrument after properly aligning the mirror 8 so that the mirrow i! may be properly adjusted with respect to the mirror 8. This can be done by focusing the instrument on infinity or perhaps some other known distance and adjusting the two mirrors so that images, one passing through and the other reflected by the mirror l1, may be brought accurately into registration.

Such an adjustment is used in a range completely shown in my copending application Serial No. 461,585 filed October 10, 1942, and reference may be had to this application for de-- tails not described herein. Reference may also be had to the following applications in which I have disclosed optical systems of a type suitable for use in a range finder of the present type: Range finder, case 13, Serial No. 472,832,-filed January 19, 1943; Range finder, case F, Serial.-

These two screws may also be- No. 479,096, filed March 13, 1943; Range finder, case G, Serial No. 479,097, filed March 13, 1943. Since the present application is limited to a mount for an optical element, it was not deemed necessary to further describe the structure of the range finder which is fully described in the application above referred to.

What I claim is: I

1. Amount for optical elements for range finders on which the elements may move in two directions, comprising an optical element, an arm support therefor, means for holding the optical element on one end of the arm, a pivotal mount for the arm about which the arm may turn in one direction, said pivotal mount including a bracket; a pivotal'mount for the bracket on which the arm and bracket may turn in another direc- ..tion, at least a'portion of said arm extending from said pivotal mount and including a pair of surfaces, one arranged parallel to the axis of the arm pivotal mount and the other arranged parallel to the axis of the bracket pivotal mount, an adjustable support for both of said surfaces whereby the inclination of the arm about its two pivotal axes may be altered.

l 2. A mount for optical elements for range finder on which the elements may move in two directions, comprising an optical element, an arm finder support therefor, means for holding the optical element on one end of the arm, a pivotal mount for the arm about which the arm may turn in one direction, said pivotalmount including a bracket, a pivotal mount for the bracket on which the arm and bracket may turn in another direction, at least a portion of said arm extending from said pivotal mount and including a. pair of surfaces, one arranged parallelto the axis of the arm pivotal mount and the'cther arranged parallel to the axis of the bracket pivotal mount, a spring tending to move the pair of surfaces in one direction, a pair of adjusting members, one for opposing the movement of each arm surface whereby the inclination of the arm carrying the optical element may be moved in two directions on said arm.

3. Amount for refracting optical elements for range finders comprising an elongated arm, means for supporting one end of the arm on two different axes at right angles to each other, a pair of adjusting screws adjacent the other end of the arm and parallel to the two difierent axes supporting the opposite end of the arm, and accurately formed surfaces resting against said adjusting screws whereby said screws may move said arm in two directions.

4. A mount for refracting optical elements for range finders comprising an elongated arm, means for supporting one end of the arm on two different axes at right angle to each other, a pair of adjusting screws adjacent the other end of the arm and parallel to the two different axes supporting the opposite end of the arm, and accurately formed surfaces resting against said adjusting screws whereby said screws'may move saidarm in two directions, and a single spring for holding the accurately formed arm surfaces against the adjusting screws.

5. A mount for retracting optical elements for range finder-s comprising an elongated arm, means for supporting one end of the arm on. two different axes at right angles to each otherQa pair of adjusting screws adjacent the other :end

of the arm and parallel to the two different axes supporting the opposite end of the arm, and' accurately formed surfaces resting against said a'djusting screws whereby said screws may move said arm in two directions'and a single spring ubstantially bisecting the angle of the two screws for holding the accurately formed arm surfaces against the adjustingscrews.

6. A mount for refracting optica1 elements for range finders comprising an elongated arm, means for supporting on end of the arm on two different axes at right angles to each other, a pair of adjusting screws adjacent the other end of the arm and parallel to the two different axes supporting the opposite end of the arm, and accurately formed surface resting against said adjusting screws whereby said screws may move said arm in two directions and a single spring for holding the accurately formed arm surfaces against the adjusting screws, a screw support comprising threaded apertures for the screws, knurled heads on the screws, and semi-cylindrical guards extending at least partially about the knurled heads to prevent accidental operation thereof.

'7. A mount for refracting optical elements for range finders comprising an elongated arm, means for supporting one end of the arm on two difierent axes at right angles to each other, a pair of adjusting screws adjacent the other end of the arm and parallel to the two different axes supporting the opposite end of the arm, and accurately formed surface resting against said adjusting screws whereby said screws may move said arm in two directions, and a single spring 5 for holding the accurately formed arm surfaces the screw.

' 8. A mount for refracting optical elements for range finders comprising an elongated arm including means for attaching the optical element atone end, two accurately formed and angularly 16 disposed surfaces on the other end, a pair of pivotal mounts for the arm, one parallel to each,

accurately formed surface, the axes of the pivotal mounts and the accurately formed surfaces being at right angles to each other, a spring substan- 20 tially bisecting the right angle and tending to move the arm about its pivots, a pair of adjusting screws arranged at right angles, one positioned to contact with each accurately formed arm surface, and means for turning the screws 25 independently to move the arm against said spring. JOSEPH MIHALYI.